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Computational Neuroscience Simulated Demyelinating Neuropathies And Neuronopathies Diana Ivanova Stephanova Bozhidar Dimitrov

Name: Computational Neuroscience Simulated Demyelinating Neuropathies And Neuronopathies Diana Ivanova Stephanova Bozhidar Dimitrov
SKU: BELL-4731792
Price: 31.00 USD
Availability: InStock
Rating: 4.8 (104 reviews)

SKU: BELL-4731792

$ 31.00 ~~$ 45.00~~ (-31%)

4.8

104 reviews

Computational Neuroscience Simulated Demyelinating Neuropathies And Neuronopathies Diana Ivanova Stephanova Bozhidar Dimitrov instant download after payment.

Publisher: CRC Press

File Extension: PDF

File size: 2.45 MB

Pages: 148

Author: Diana Ivanova Stephanova; Bozhidar Dimitrov

ISBN: 9781466578326, 9781466578364, 1466578327, 146657836X

Language: English

Year: 2013

Product desciption

Computational Neuroscience Simulated Demyelinating Neuropathies And Neuronopathies Diana Ivanova Stephanova Bozhidar Dimitrov by Diana Ivanova Stephanova; Bozhidar Dimitrov 9781466578326, 9781466578364, 1466578327, 146657836X instant download after payment.

''Preface Preface v vi Computational Neuroscience Simulated Demyelinating Neuropathies and Neuronopathies (PISD) are specifi c indicators for CIDP and its subtypes; (3) the severe focal demyelinations, each of them internodal and paranodal, paranodalinternodal (IFD and PFD, PIFD), are specifi c indicators for acquired demyelinating neuropathies such as GBS and MMN; (4) the simulated progressively greater degrees of axonal dysfunctions termed ALS1, ALS2 and ALS3 are specifi c indicators for the motor neuron disease ALS Type1, Tape2 and Type3; and (5) the obtained excitability properties in the simulated demyelinating neuropathies are quite different from those in the simulated ALS subtypes, because of the different fi bre electrogenesis. The results show that the abnormalities in the axonal excitability properties in the ALS1 subtype are near normal. The results also show that in the simulated hereditary, chronic and acquired demyelinating neuropathies, the slowing of action potential propagation, based on the myelin sheath dysfunctions, is larger than this, based on the progressively increased uniform axonal dysfunctions in the simulated ALS2 and ALS3 subtypes. Conversely, the abnormalities in the accommodative and adaptive processes are larger in the ALS2 and ALS3 subtypes than in the demyelinating neuropathies. The increased axonal superexcitability in the ALS2 and ALS3 subtypes leads to repetitive discharges (action potential generation) in the nodal and internodal axolemma beneath the myelin sheath along the fi bre length in response to the applied long-duration subthreshold polarizing current stimuli (accommodative processes) and to the applied long-duration suprathreshold depolarizing current stimuli (adaptive processes)''--